Bilateral choroid plexus resection in a 9p hexasomy/tetrasomy mosaic patient

Previous reports have shown that a gain of the chromosome 9 short arm (9p) is associated with choroid plexus hyperplasia (CPH). Furthermore, CPH can lead to communicating hydrocephalus; however, no cases of CPH with 9p gain requiring choroid plexus resection have been reported. Here, we describe the first case in which a 9p hexasomy/tetrasomy mosaic patient required choroid plexus resection for hydrocephalus. This finding suggested that the 9p copy number is correlated with CPH severity.

psychomotor development was delayed: even after 8 months of age, she was unable to follow with her eyes or hold her head up.A G-band was used to investigate the underlying disease, and a mosaic of chromosomes 47,XX and 48,XX from 10 cells was observed, including an extra chromosome that appeared to be derived from chromosome 9 (Supplementary information).
Expansion of the head circumference was observed at 8 months of age (Fig. 1B), and head magnetic resonance imaging at 9 months showed enlarged ventricles and choroid plexus hyperplasia with no obvious occlusion, leading to a diagnosis of communicating hydrocephalus associated with CPH (Fig. 1C).No obvious psychomotor regression due to hydrocephalus was observed.The patient continued to experience progressive enlargement of the head circumference and nystagmus and was admitted to the hospital for surgical treatment at 10 months.
VPS and endoscopic coagulation (EC) were selected as treatments after the patient was admitted to our hospital.Based on previous reports, poor CSF control is expected when only VPS is performed.After surgery, the patient developed significant ascites accumulation, requiring the placement of an abdominal drain.A large amount of ascitic fluid was drained from the abdomen, which resulted in the subsequent development of renal failure due to dehydration.During the course of the patient's illness, she experienced symptomatic seizures and hemorrhagic stroke.
Although her renal function improved with high-volume fluid replacement, peritoneal drainage was still necessary.Therefore, the right choroid plexus was resected.Postoperatively, her CSF excretion temporarily decreased but subsequently increased rapidly.During the procedure, hyponatremia and seizures due to loss of CSF were observed.CSF excretion from the drain remained high.Therefore, left choroid plexus resection was performed to further reduce CSF excretion.Thereafter, the CSF excretion decreased, the fluid balance stabilized without intracranial hypertension or ascites, and the patient was discharged.After discharge, her gross motor function gradually improved.
Pathological examination of the excised choroid plexus revealed no dysplasia and 1-2% positivity for MIB-1, a wellknown proliferation marker for the evaluation of proliferating cells.The patient was diagnosed with diffuse villous hyperplasia of the choroid plexus.
A comparison of this patient with previous patients with 9p gain complicated by CPH suggested that the severity of the disease in this patient was greater than that reported previously (Table 1) [1][2][3][4][5][6][7] .Ten cases have been reported in the past, including five cases of trisomy, one case of trisomy/disomy mosaic, and four cases of tetrasomy.VPS was performed as the initial surgical procedure in seven patients, of whom at least five (three patients with trisomy, one patient with trisomy/disomy mosaic, and one patient with tetrasomy) required additional surgical treatment because of the presence of large amounts of ascites or other causes.EC, ventriculoatrial shunt (VAS), and endoscopic third ventriculostomy were chosen as additional surgical treatments.
In comparison with the findings of previous reports, in this case, additional surgical procedures were required relatively early.In addition, additional surgical treatment was required for this patient despite the initial treatment with VPS and EC to reduce CSF production.Additional surgical treatment involved resection of the bilateral choroid plexus.Although choroid plexus resection is performed for choroid plexus tumors and CPH without chromosomal disorders, no cases of CPH associated with 9p gain requiring choroid plexus resection have been reported.In the treatment strategy, it was expected that an additional shunt, such as a VAS, would be insufficient to reduce the patient's CSF leakage; thus, choroid plexus resection was selected.
The need for choroid plexus resection in this patient may be attributed to the greater number of 9p gains in this patient than in previous patients.Although identifying the causative gene is difficult, it is suggested that a gene region on 9p will have a quantitative effect on choroid plexus hyperplasia.If 9p gain is associated with hydrocephalus and if there is a high copy number of 9p, treatments to reduce CSF production, such as choroid plexus resection, should be considered.

Fig. 1
Fig.1Clinical and genetic information of the patient.A Head ultrasound image at taken birth.Choroid plexus hyperplasia and a cyst were observed.B Head circumference growth curve.Her head circumference expanded at 8 months of age.C Head magnetic resonance imaging at 9 months of age.Hydrocephalus and choroid plexus hyperplasia were observed.D Results of FISH (1-1" indicate 47,XX cells, 2-2" indicate 48,XX cells).For 1 and 2, the chromosome 9 painting probe was used.For 1' and 2' , a subtelomere probe (green, 9p; red, 9q) was used.For 1" and 2", centromere probes were used.The chromosome 9 painting probes used were as follows: the XCP-kit with Texas Red (Carl Zeiss); chromosome 9 short arm subtelomere probe, Vysis TelVysion 9p Spectrum Green Probe (Vysis); chromosome 9 long arm subtelomere probe, Vysis TelVysion 9q Spectrum Orange Probe (Vysis); and chromosome 9 centromere probe, CEP9 Spectrum Orange Probe (Vysis).E Results of the microarray chromosome analysis.A 9p gain was more distal to 9p 24.
b twins.